Realistic Simulation for Shipbuilding

Marine structures operate by definition in multi-physical environments, and Abaqus is ideally suited to address these multiphysics challenges. Coupled fluid-structure interaction (FSI) problems can be handed with traditional finite elements (using acoustic elements for the fluid domain)—a very efficient approach for steady-state analyses in Abaqus/Standard or dynamics analyses in Abaqus/Explicit. For highly dynamic analyses (such as those involving UNDEX), or where multiple fluid domains are present, our Coupled Eulerian-Lagrangian (CEL) modeling capability is an ideal choice.

CEL is entirely organic to Abaqus/Explicit, meaning that there is no need for coupling various single-domain codes. Contact between the domains is efficiently handled through our general contact algorithm, just like a traditional Lagrangian analysis.

The vast material constitutive library in Abaqus, augmented with our efficient and user-friendly composite modeling capabilities, allow for the modeling of literally any Marine structure or craft.  Our seamless, associative interface with CATIA V5 and other CAD packages and efficient, highly automated meshing tools enable design-to-analysis time to be cut dramatically. Due to the large size of Marine structures and models,  our best-in-class scaling for multiple-CPU analyses provides answers in time to make critical design iterations vital to project success.